Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of human platelets to 10 discharges from a 4.5 microF capacitor charged at 3 kV permitted isolation of a stable preparation of permeabilized platelets that, after equilibration with Ca2+ buffers (pCa less than 6) for 15 min at O degrees C, secreted 5-hydroxytryptamine (5-HT) at 25 degrees C. Thrombin enhanced the sensitivity to Ca2+ of the secretion of 5-HT by about 10-fold, whereas Arg -vasopressin and the prostaglandin endoperoxide analogue, U-46619, increased sensitivity to Ca2+ by 3 to 4-fold. This action of thrombin was associated with stimulation of diacylglycerol formation, a marked increase in phosphorylation of protein P47 and a smaller increase in phosphorylation of the P-light chain of myosin. Thrombin exerted these effects at a [Ca2+ free] of 0.1 microM, suggesting that the receptor-activated breakdown of platelet phosphoinositides to diacylglycerol may not require prior Ca2+ mobilization in intact platelets. In both the presence and absence of thrombin, a higher [Ca2+ free] was required for optimal secretion than for maximal phosphorylation of P47 and myosin light-chain, indicating that Ca2+ and possibly diacylglycerol have roles in the secretory mechanism additional to activation of the enzymes that phosphorylate these proteins. Stable GTP analogues such as guanosine-5'-O-(3-thiotriphosphate) (GTP gamma S), and to a lesser extent GTP itself, enhanced the Ca2+ sensitivity of the secretion of 5-HT from permeabilized platelets. Moreover, GTP potentiated the stimulatory action of thrombin. These effects of GTP gamma S and GTP were associated with increased diacylglycerol formation and were inhibited by guanosine-5'-O-(2-thiodiphosphate) (GDP beta S) suggesting that a GTP-binding protein may play a role in the receptor-activated breakdown of phosphoinositides. However, as GDP beta S did not inhibit the potentiation of secretion caused by thrombin alone, a GTP-independent pathway of platelet activation may also exist.
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PMID:Receptor-induced diacylglycerol formation in permeabilized platelets; possible role for a GTP-binding protein. 609 73

LLC-PK1L cells, a kidney-derived cell line grown in defined medium, possess a vasopressin-sensitive adenylate cyclase. Somatostatin was able to inhibit the vasopressin-induced increase in adenylate cyclase activity, without affecting the basal enzyme activity. This inhibition was competitive. No effect of somatostatin could be detected on [3H]vasopressin binding suggesting an interaction of somatostatin with the vasopressin-sensitive system distal to the hormone-receptor interaction. At variance with N6-L-2-phenylisopropyladenosine (PIA), GTP did not potentiate the inhibition by somatostatin. The inhibition of the vasopressin stimulation by somatostatin and that by PIA were additive. Changing the composition of the cell growth medium increased the number of vasopressin receptors per cell. Cells with a high number of vasopressin receptors were less sensitive to inhibition by somatostatin. Such results suggested that somatostatin and vasopressin receptors and/or the inhibitory (Ni) and stimulatory (Ns) regulatory transducing components are regulated by different mechanisms.
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PMID:Inhibition by somatostatin of the vasopressin-stimulated adenylate cyclase in a kidney-derived line of cells grown in defined medium. 614 90

Specific vasopressin binding to rat hepatocytes and rat liver membranes was measured using biologically active (3H)-Tyr2-Lys8-vasopressin (8.5 Ci/mM). In both systems, vasopressin binding was found to be time-dependent, reversible, and saturable. The kinetic parameters for vasopressin binding were: apparent dissociation constants (Kd): 4.9 nM and 15 nM; maximal binding capacities: 0.83 pmoles/mg protein and 2.10(5) sites/Cell for purified membranes and intact cells respectively. The relative affinities of 19 vasopressin structural analogues were deduced from competition experiments and compared to the previously determined glycogenolytic (or antiglycogenolytic) potencies of these analogues. For both agonists and antagonists, a highly significant correlation was demonstrated between pKd and pKa (or pKi) values, suggesting that the detected binding sites are the physiological receptors involved in the glycogenolytic action of vasopressin on the rat liver. The affinity of antagonists for binding to these receptors is the same for both membranes and cells. In contrast, agonists which bind to vasopressin receptor sites have a higher affinity for purified membranes than for intact cells (Kd membranes/Kd cells = 8 +/- 1). GTP (0.1mM) reduced the affinity of agonists but not of antagonists for binding to membranes and abolished the differences between Kd values for binding to hepatocytes and membranes.
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PMID:(3H)-vasopressin binding to isolated rat hepatocytes and liver membranes: regulation by GTP and relation to glycogen phosphorylase activation. 627 52

Liver plasma membrane adenylate cyclase was stimulated paradoxically by an alpha 2-adrenergic mechanism under conditions of low metal ion and low GTP concentrations. In untreated membranes, epinephrine stimulation was GTP-dependent and was mediated by beta-adrenergic receptors since it was completely blocked by propranolol, but unaffected by dihydroergocryptine. Pre-treatment of membranes to remove or reduce divalent cations and guanine nucleotides changed epinephrine stimulation to a form that was mediated by alpha 2-receptors since it was completely blocked by dihydroergocryptine, phenoxybenzamine and yohimbine, but not by propranolol or prazosin. The pre-treatment did not alter enzyme activation by isoproterenol or glucagon, alpha 2-Adrenergic stimulation of adenylate cyclase in depleted membranes required the presence in the assay of 1-2 mM Mg2+ and small amounts of exogenous GTP (less than or equal to 50 nM). Increasing the Mg2+ or GTP concentration in the assay produced a progressive reversal of epinephrine-stimulated activity from an alpha 2-adrenergic form to a predominantly beta-adrenergic form. Readdition of Ca2+ or Mg2+, but not Mn2+, into depleted membranes by incubation in the presence of metal reestablished the pattern of enzyme sensitivity to epinephrine to that seen with untreated membranes i.e., it changed from alpha 2- to beta-receptor mediation. Alterations in membrane and assay content of metal ions and GTP did not result in the activation of the enzyme by vasopressin or angiotensin II. These findings demonstrate the ability of Ca2+, Mg2+ and GTP to control the coupling of beta- and alpha 2-adrenergic receptors with liver adenylate cyclase. It is hypothesized that the cations act by regulating the interaction of the receptors with adrenergic agonists and/or the guanine nucleotide binding protein(s) which is postulated to be involved in control of the enzyme.
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PMID:Regulation of adrenergic stimulation of hepatic adenylate cyclase by divalent cations. 627 6

The effects of the reducing agent dithiothreitol (DTT) on vasopressin (AVP)-stimulated osmotic water flow and adenylate cyclase activity were studied in the urinary bladder of Bufo marinus. DTT produced concentration-dependent inhibition of the hydroosmotic water permeability response to 10 mU/ml AVP and 10 mM theophylline but did not inhibit the response to 10 mM adenosine 3',5'-cyclic monophosphate (cAMP). The inhibitory effects of DTT on AVP responsiveness were partially reversed by washing in DTT-free Ringer solution or by addition of oxidizing agents such as dehydroascorbic acid (DHA) or H2O2. The inhibitory effects of DTT were completely reversed by washing in DTT-free Ringer plus addition of DHA. In addition, the inhibitory effects of DTT on AVP-induced osmotic water flow were partially reversed by the GTP analogue 5'-guanylyl imidodiphosphate [Gpp(NH)p]. DTT also inhibited the adenylate cyclase response to AVP but did not alter the response to AVP plus Gpp(NH)p or the response to NaF. These observations suggest that the inhibitory effect of thiol compounds on AVP responsiveness may be modulated through alterations of a redox system distal to the hormone receptor but proximal to the catalytic subunit of adenylate cyclase. Inasmuch as Gpp(NH)p partially reversed the inhibitory effects of DTT on AVP-stimulated osmotic water permeability and prevented the inhibitory effect of DTT on AVP-stimulated adenylate cyclase, an effect on either GTPase or binding of GTP to the regulatory protein of adenylate cyclase is suggested by these observations.
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PMID:Modulation of vasopressin action by reducing agents in Bufo marinus. 628 8

Arg8-vasopressin inhibited the adenylate cyclase activity of human platelet particulate fraction up to a maximum of 27% (IC50 = 1.2 nM). This inhibition required the presence of 10 microM GTP and was optimal with 100 mM NaCl. Orn8-vasopressin had similar effects. 1-Deamino-Val4, D-Arg8-vasopressin did not by itself affect adenylate cyclase activity but competitively inhibited the action of Arg8-vasopressin (pA2 = 7.74). Arg8-vasopressin did not inhibit adenylate cyclase in intact platelets but instead caused platelet aggregation, an effect that was also competitively inhibited by 1-deamino-Val4, D-Arg8-vasopressin (pA2 = 7.82). Thus, platelets possess vasopressin receptors of the V1 type that, under appropriate conditions, can mediate either inhibition of platelet adenylate cyclase or platelet aggregation.
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PMID:Vasopressin inhibits the adenylate cyclase activity of human platelet particulate fraction through V1-receptors. 631 57

Plasma membranes containing one class of non-cooperative binding sites for tritium-labelled [8-arginine]vasopressin were isolated from bovine kidney inner medulla and from rat liver. By using a weighted, non-linear least squares fit to logistic curves, the binding parameters of eight vasopressin agonists and antagonists were determined in competition experiments. Vasopressin analogues with sarcosine or N-methyl-L-alanine in position 7 instead of proline showed a high ratio of antidiuretic to vasopressor activity. These analogues retained a high binding affinity to the renal vasopressin receptor with apparent dissociation constants KD in the order proline less than sarcosine less than methylalanine . In contrast, the affinity to the hepatic vasopressin receptor, which shares characteristics with vasopressor receptors, was drastically reduced with KD values being in the order proline much less than N- methylalanine less than sarcosine. By combining the substitutions at position 7 with substitutions of cysteine in position 1 by either deaminopenicillamine or beta-mercapto-beta, beta-cyclopentamethylenepropionic acid, inhibitors of the oxytocoic and vasopressor responses were obtained. These additional substitutions at position 1 led to a drastic decrease in the binding affinity to the vasopressin receptor in bovine kidney. The intrinsic activity of these analogues to stimulate the renal vasopressin sensitive adenylate cyclase was strongly reduced or completely lost. In the rat liver system, however, these vasopressin antagonists showed a remarkably increased affinity to vasopressin receptors as compared to analogues substituted only at position 7. GTP reduced the binding affinity of all analogues to the hepatic receptor. The results show that these structural modifications which influence both the conformational properties of the vasopressin molecule and the biological activities of the hormone had strikingly different effects on the interactions of the resulting analogues with physiologically important receptors in the kidney and the liver. These studies may lead to the development of more specific vasopressin agonists and antagonists.
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PMID:Interactions of vasopressin agonists and antagonists with membrane receptors. 632 26

LLC-PK1L cells, a kidney-derived cell line, had sustained growth in a defined medium. When compared to the parent cell line growing with 10% fetal bovine serum, LLC-PK1L cells had about 100-times fewer vasopressin receptors. Upon modifications of the cell culture medium, the vasopressin response of the adenylate cyclase could be increased by more than 10-fold with a parallel increase in vasopressin receptor number. Using cells with high or low receptor densities, the stimulatory and inhibitory effects of N6-L-2-phenylisopropyl-adenosine on the modulation of the adenylate cyclase responsiveness to vasopressin were investigated. When high concentrations of GTP were added, low concentrations of phenylisopropyladenosine inhibited the enzyme, while higher concentrations were found to be stimulatory. The adenylate cyclase activity stimulated by vasopressin could only be inhibited by phenylisopropyladenosine under these conditions in membranes with high receptor density; only the increase in enzyme activity due to high GTP concentration was inhibitable. The analysis of the dependency of the adenylate cyclase activity as a function of the vasopressin concentration showed that, besides reducing the maximum velocity of the system for vasopressin, the addition of phenylisopropyladenosine generated an heterogeneity in the adenylate cyclase response to vasopressin (as judged by a curvilinear Eadie plot). A high-affinity component in the adenylate cyclase response appeared when phenylisopropyladenosine was added. The growth of the cells in a medium containing adenosine deaminase gave results identical to those obtained for control cells. However, growing the cells with both phenylisopropyladenosine and adenosine deaminase abolished the inhibitory effects of the former on the adenylate cyclase and greatly reduced its stimulatory action. Under these conditions, the vasopressin response of the adenylate cyclase was not further regulated by phenylisopropyladenosine. These results indicate a role of adenosine on vasopressin response, especially at low physiological concentrations of the hormone where a high-affinity component of the hormonal response could be demonstrated.
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PMID:Regulation by adenosine of the vasopressin-sensitive adenylate cyclase in pig-kidney cells (LLC-PK1L) grown in defined media. 646 94

In the present study, we examined the effects of guanine nucleotides on vasopressin-induced osmotic water flow and sodium transport in the 14-h preincubated frog bladder. We also examined the effects of the adenylate cyclase-cyclic AMP and cyclic AMP-dependent protein kinase system in the bladder's epithelial cells. Gpp(NH)p significantly enhanced vasopressin-induced water flow while it did not affect cyclic AMP-induced water flow. However, Gpp(NH)p did not enhance the vasopressin-induced increment of sodium transport across the frog bladder. The adenylate cyclase activity of the crude homogenate was enhanced by vasopressin, Gpp(NH)p and NaF. The effects of Gpp(NH)p and vasopressin, at their maximum doses, on the enzyme activities were additive, while other combinations were not. Specific Gpp(NH)p binding sites were found in the pellet fraction after 2,400 X g centrifugation. No direct effect on the protein kinase activity was observed in the presence of 10(-6) M nucleotides, such as GTP, GDP, GMP, CTP, UTP, ITP and Gpp(NH)p. Cyclic AMP stimulated the phosphorylation of discrete protein bands, however, Gpp(NH)p did not influence cyclic AMP-dependent protein phosphorylation of crude homogenate of the bladder's epithelial cells. These results suggest the guanine nucleotides stimulate the vasopressin-induced osmotic water flow in frog bladder by enhancing the vasopressin-mediated adenylate cyclase activity, so that accumulated cyclic AMP might activate cyclic AMP-dependent protein kinase.
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PMID:Effects of guanine nucleotides on vasopressin-induced water flow and sodium transport of the frog bladder. 660 7

The effects of arginine-vasotocin and nucleotides on the steady-state kinetics of the adenylate cyclase activity in the epithelial cell membranes of the bullfrog (Rana catesbiana) bladder were studied. Arginine-vasotocin stimulated adenylate cyclase more effectively than oxytocin or arginine-vasopressin, with respect to both the maximal hormonal activation ratio relative to basal, and the hormone concentration yielding a half-maximal response (apparent Km). Arginine-vasotocin, GTP and its analogue guanyl-5'-yl imidodiphosphate (Gpp(NH)p) increased the Vmax of the basal adenylate cyclase activity, but showed no effect of the apparent Km of the system for ATP. In addition, Gpp(NH)p enhanced the arginine-vasotocin-stimulated adenylate cyclase activity, further increasing the Vmax, while GTP showed no statistically significant effect. Dual effects of GDP were apparent: it was stimulatory at 1 x 10(-5) mol/l and inhibitory at 1 x 10(-3) mol/l, on both the basal and the arginine-vasotocin-stimulated adenylate cyclase activity. Guanosine 5'-monophosphate, CTP, UTP and ITP showed no apparent effect on the enzyme activity. Sodium fluoride acted in the same manner as GTP on the adenylate cyclase system, increasing only basal activity. Adenylate cyclase activities exhibited pH optima that were less distinct in the presence than in the absence of Gpp(NH)p. The Arrhenius plot of the temperature experiment showed that a high-energy step was involved for activation by Gpp(NH)p or arginine-vasotocin. When the relative activation ratios by arginine-vasotocin at different ATP concentrations were studied, a distinct activation optimum was shown at 2.5 x 10(-4) mol ATP/l, either in the absence or presence of Gpp(NH)p. The possibility that GTP, GDP nd ATP play a regulatory role in the epithelial cells of the bullfrog bladder by adjusting the responsiveness of the system to a natural hormone, arginine-vasotocin, is discussed.
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PMID:Stimulatory and inhibitory effects of guanine nucleotides on arginine-vasotocin-sensitive adenylate cyclase in the epithelial cell membranes of the bullfrog bladder. 660 97


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